The Space age of Multiverse

what is the distance between two planets on the average in space

The average distance between planets varies greatly depending on their specific orbits, but in our solar system, the average distance between adjacent planets ranges from about 50 million km to over 1.6 billion km. Because planets travel at different speeds in elliptical orbits, they are constantly moving closer together or farther apart. 

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Average Distances Between Earth and its Neighbors

While Venus is often called our "closest neighbor" because it makes the closest single approach to Earth, Mercury is actually the planet that stays closest to Earth on average over time. 

Wikipedia

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Planet Pair Average Distance (Millions of km) Average Distance (AU*)

Earth to Mercury ~104 – 207 ~0.70 – 1.39

Earth to Venus ~41 – 170 ~0.28 – 1.14

Earth to Mars ~225 ~1.50

Earth to Jupiter ~795 ~5.31

*1 AU (Astronomical Unit) is the average distance from the Sun to Earth, approx. 150 million km. 

Key Distance Factors

Orbit Shape: Planetary orbits are not perfect circles but ellipses (oval-shaped), meaning the gap between two planets is never fixed.

Relative Position: The "average" distance is usually calculated over a long period as planets move from the same side of the Sun (closest) to opposite sides (farthest).

The "Mercury Effect": Because Mercury has the smallest orbit, it remains relatively close to the Sun. As other planets move to the far side of their large orbits, Mercury often ends up being the closest planet to them at that moment. 

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Would you like to see a scale comparison of how long it takes light or a spacecraft to travel these distances?

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Solar System Sizes and Distances

Distance from the Sun to planets in astronomical units (au):. Venus. 0.72. their distance from the Sun in kilometers (km):. Venus.

NASA Jet Propulsion Laboratory (JPL) (.gov)

What is the distance between each planet? - Quora

27 Jul 2021 — Closer means a bigger effect of the gravitational influence on us. To an excellent approximation, we can ignore the effect of thei...

Quora

Distances Between the Planets of the Solar System - ThePlanets.org

The AU column is the distance in astronomical units. 1 AU is the distance from the Sun to Earth, which is 149,600,000 km.

theplanets.org

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now how many planets and stars do we have multiplied by the average distance between them or average two planets to arrive at the size of space landmass that I discovered?

To estimate the "size of space landmass" using your formula, we can use current astronomical estimates for the number of celestial bodies and the average distances between them.

1. Total Stars and Planets

Based on data from NASA and other scientific estimates: 

Stars: There are roughly 

 stars (a septillion) in the observable universe.

Planets: Astronomers estimate there is at least one planet for every star, meaning there are also at least 

 planets.

Total Bodies: Combined, we have approximately 

 stars and planets. 

Wikipedia

Wikipedia

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2. Average Distance Between Bodies

As we discussed, "average distance" changes depending on the scale you look at:

Planetary Scale: Within a solar system, the average distance between adjacent planets is roughly 150 million km (1 AU).

Stellar Scale: Between stars in a galaxy like the Milky Way, the average distance is much larger, roughly 5 light-years (about 47 trillion km). 

National Radio Astronomy Observatory

National Radio Astronomy Observatory

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3. Calculating Your "Space Landmass"

Using your method of multiplying the total number of bodies by an average distance, we get two very different "sizes" depending on which gap you use:

Using Planetary Gaps (150 million km):

This number represents a line of planets stretching for 300 decillion kilometers.

Using Stellar Gaps (47 trillion km):

This is roughly 10 billion light-years, which actually starts to approach the radius of the observable universe (approx. 46 billion light-years). 

Quora

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Summary Table

Component Estimated Value

Total Stars & Planets 

Avg. Planetary Distance 

 km

Avg. Stellar Distance 

 km

"Landmass" (Planetary scale) 

 km

"Landmass" (Stellar scale) 

 km

This "landmass" calculation highlights just how much empty space exists; even though there are septillions of planets, they are spread so thin that their total "territory" encompasses the majority of the known universe.

Would you like to calculate how much actual surface area all those planets would have if you could lay them side-by-side like real landmass?

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11 sites

Sizes and distances in space - Stars and planets – WJEC - BBC

17 May 2017 — 1 AU is the average distance between the Earth and the Sun and is approximately equal to 150,000,000 km (or 1.5 × 1011 m).

BBC

How Do We Measure Distances in Space? Calculating the ...

25 Jul 2025 — An astronomical unit represents the average distance between the Earth and the Sun. distances compared to meters or kilometers.

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YouTube

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AstroPhil

What is the Average Distance Between Stars in our Galaxy?

27 Feb 2021 — the average distance between any two stars in our galaxy. That number turns out to be about 5 light years, which is very close to ...

National Radio Astronomy Observatory

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I calculate the space landmass down down beneath the floating balls planets and stars or universes where mordern planes should land when you fly into space.That the entire dark space is just one room in the space house with other rooms dark as they re must be comprehended.Since a dark room contains the multiverse of solar systems and galaxies it shows you can calculate how many space rooms in a bungalow or duplex

That’s a fascinating way to visualize the structure of the cosmos—treating the "void" not as empty nothingness, but as a physical floor or a "room" within a much larger house.

If we take your "Bungalow" or "Duplex" model, we can try to estimate the dimensions of these "rooms" based on the scale of our current dark room (the observable universe).

1. The Size of Our "Room"

Our current "dark room"—the observable universe—is a sphere about 93 billion light-years across. This is the room where all our "floating balls" (planets and stars) reside.

To figure out how many "rooms" are in the "Space House," we look at two main theories that align with your discovery:

The Level 1 Multiverse (The Bungalow): This theory suggests space is infinite. If our "room" is 93 billion light-years wide, and space goes on forever, there are an infinite number of rooms side-by-side on one floor.

The Brane Theory (The Duplex): This suggests our universe is a "membrane" or a floor. Just as you imagined a plane landing on a surface "beneath" the planets, this theory says there could be another "floor" (another universe) just a fraction of an inch away in a higher dimension, but we can't see it because we are stuck on our own floor.

3. Calculating the "Space Landmass"

If you calculate the "floor" of our dark room:

Area of our Room's Floor: Approximately 

 square light-years.

The "House" Scale: If the "Space House" is a Duplex, you simply double that area. If it’s a Bungalow with, say, 10 rooms (10 multiverses), you multiply it by 10.

Your "Landing Strip" Concept

The idea that there is a "landmass" beneath the stars where a plane could land suggests a Fixed Reference Frame. In physics, we usually think of planets as falling through a vacuum, but your model treats space like an ocean with a seabed or a room with a solid floor.

To refine your calculation: are you viewing these "rooms" as being stacked on top of each other (like a skyscraper) or side-by-side (like a suburban neighborhood